% !TeX root =main.tex

% Avec tabulary :
% L 	left-justified balanced column
% C 	centered balanced column
% R 	right-justified balanced column
% J 	left-right-justified balanced column


\begin{table}[h]
	\caption{Number of sampled trees and logs per species.}
	\centering 

	\begin{tabular}{llcc}
	\hline
	Species & Common name & Number of trees & Number of logs \\
	             &                           &                            & (tree\#1 + tree \#2) \\

	\hline
	\textit{Abies alba} & Silver fir & 2 & 5$+$5 \\ 
	\textit{Acer campestre} & Field maple & 2 & 3$+$3 \\ 
	\textit{Acer platanoides} & Norway maple & 2 & 5$+$2 \\ 
	\textit{Acer pseudoplatanus} & Sycamore maple & 2 & 2$+$1 \\ 
	\textit{Alnus glutinosa} & Alder & 2 & 5$+$5 \\ 
	\textit{Betula pendula} & Birch & 2 & 5$+$5 \\ 
	\textit{Carpinus betulus} & Hornbeam & 1 & 0$+$5 \\ 
	\textit{Fagus sylvatica} & European beech & 2 & 5$+$5 \\ 
	\textit{Fraxinus excelsior} & European ash & 2 & 4$+$5 \\ 
	\textit{Picea abies} & Spruce & 1 & 5$+$0 \\ 
	\textit{Populus tremula} & Aspen & 2 & 5$+$5 \\ 
	\textit{Prunus avium} & Wild cherry & 2 & 5$+$5 \\ 
	\textit{Quercus rubra} & Red oak & 2 & 2$+$5 \\ 
	\textit{Robinia pseudo-acacia} & Black locust & 2 & 5$+$5 \\ 
	\textit{Sorbus torminalis} & Wild & 2 & 4$+$5 \\ 
	\textit{Tilia platyphyllos} & Lime & 2 & 5$+$5 \\ 
	\textit{Ulmus minor} & Field elm & 2 & 5$+$5 \\ 
	\hline
	Total & 17 species & 32 & 141 \\ 
	\hline


	\end{tabular}
	\label{tableEssences}
\end{table}

\begin{table}[h]
	\caption{Variables used in the classification.}
	\centering 
	\footnotesize

	\begin{tabulary}{\textwidth}{lLc}
	name & definition & unit \\

	\hline
	\textbf{Br\_LRel} & Mean relative length of sequential knots %\textit{(i.e., horizontal length divided by mean log radius)}
		& $mm/mm$ \\
	\textbf{Br\_sdLRel} & Standard deviation of relative length of sequential knots & $mm/mm$ \\
	\textbf{Br\_InInc} & Mean initial inclination angle of sequential knots 
		%\textit{(i.e., angle between the horizontal plane and the line linking the starting point 
		%near the pith to a point located 5 cm farer on the trajectory; positive value means that the knot is raising up)}
		& \degree \\
	\textbf{Br\_sdInInc} &  Standard deviation of initial inclination angle of sequential knots & \degree \\
	\textbf{Br\_DRel} & Mean relative maximal diameter of sequential knots 
		%\textit{(i.e., mean maximal diameters divided by mean log diameter)} 
		& $mm/mm$ \\
	\textbf{Br\_sdDRel} & Standard deviation of relative maximal diameter of sequential knots & $mm/mm$ \\
	\textbf{Br\_DqMin} & First decile of relative maximal diameter of sequential knots & $mm/mm$ \\
	\textbf{Br\_DqMax} & Last decile of relative maximal diameter of sequential knots & $mm/mm$ \\
	\textbf{Br\_DReduc} & Mean ratio of end diameter to maximal diameter of sequential knots & $mm/mm$ \\
	\textbf{Br\_Npm} & Rate of sequential knots (Ks) & $m^{-1}$ \\
	\textbf{Ek\_Npm} & Rate of epicormic knots (Ke) & $m^{-1}$ \\
	\textbf{B1\_Npm} & Rate of buds of primary origin (B1) &  $m^{-1}$ \\
	\textbf{B2\_Npm} & Rate of buds of secondary origin (B2) &  $m^{-1}$ \\
	\textbf{BA\_Npm} & Rate of adventive buds (BA) &  $m^{-1}$ \\
	\textbf{Bud\_Npm} & Rate of buds (B1, B2 and BA) &  $m^{-1}$ \\
	\textbf{Epic\_Npm} & Rate of epicormic knots and buds (Ke and B2) & $m^{-1}$ \\
	\textbf{Knot\_Npm} & Rate of  epicormic and sequential knots (Ks and Ke) &  $m^{-1}$ \\
	\textbf{Clust\_Npm} & Rate of clusters
		% \textit{(see details in the text)}
		&  $m^{-1}$ \\
	\textbf{Clust\_mSize} & Mode value of cluster size & $-$ \\
	\textbf{Clust\_sdSize} & Standard deviation of cluster size & $-$ \\
	\textbf{Phyl\_angle} & Mode value of phyllotactic angle
		% \textit{(see details in the text)}
		& \degree \\
	\hline

	\end{tabulary}
	\label{tableVariables}
\end{table}
